Skip to main content

All Questions

Filter by
Sorted by
Tagged with
2 votes
0 answers
124 views

Symmetric matching in special graphs

Let $G$ be a bipartite graph, $L$ ($R$) be the set of vertices in the left (right) part. Consider a graph $T$ with the set of vertices $R \times L$ ( $L \times R$ ) in the left (right) part. For any $...
Fedor Ushakov's user avatar
3 votes
1 answer
141 views

Generalizations of a theorem of Edmonds/Tutte on existence of a perfect matching in a graphs

It is well known that for a bipartite graph $G$ with bi-adjacency matrix $A$, then $\det A \neq 0$ (as a polynomial) iff $G$ has a perfect matching (there is a similar result for general graphs with ...
Agile_Eagle's user avatar
6 votes
1 answer
252 views

Pair matching between divisors less and more than $\sqrt{N}$

Let $n$ be the positive integer. Let $A$ and $B$ be sets of divisors of $n$ less and more than $\sqrt{n}$ respectively. Consider bipartite graph $(A, B)$, where two vertices are connected when one ...
thematdev's user avatar
  • 163
2 votes
0 answers
163 views

Generalizing Hall's marriage theorem to non-perfect matchings

Let $G = (X, Y, E)$ be bipartite graph such that $|X|=|Y|=n$. A matching $M \subseteq E$ is a subset of disjoint edges (i.e., there does not exist a pair of edges $(x, y) \in M$ and $(x', y') \in M$ ...
errorist's user avatar
  • 121
2 votes
2 answers
123 views

Existence of certain regular graphs

Question: what can be said about the existence of $2k$ regular graphs, $1\lt k$ that have a $1$-factor and a $2$-factor? Provided their existence, what is/are the smallest for $k$? The graphs must be ...
Manfred Weis's user avatar
  • 13.2k
4 votes
1 answer
111 views

Are there decompositions of $K_{16}$ by certain 3-regular graphs?

This is inspired by the problem of the Hoffman-Singleton Decomposition of $K_{50}$. I wanted to look at smaller variants of this kind of problem, and so naturally I started wondering: Can the (edges ...
Wolfgang's user avatar
  • 13.4k
28 votes
3 answers
2k views

Is every positive integer the permanent of some 0-1 matrix?

In the course of discussing another MO question we realized that we did not know the answer to a more basic question, namely: Is it true that for every positive integer $k$ there exists a balanced ...
Timothy Chow's user avatar
  • 82.7k
3 votes
0 answers
232 views

Counting matchings and perfect matchings

A matching in a graph is a subset of the edges such that no two edges share a vertex. A perfect matching is a matching where every vertex is part of exactly one edge in the matching. Counting the ...
Per Alexandersson's user avatar
2 votes
0 answers
108 views

Counting number of perfect matchings

Counting perfect matchings in bipartite graphs is $\# P$ complete. Let $G(V,E)$ be a graph known to have $d$ number of perfect matchings. Bipartite it the obvious way by adding $E$ vertices with one ...
Turbo's user avatar
  • 13.9k
0 votes
0 answers
84 views

Bounds for smallest non-trivial designs

Given $s>t\ge 2$, let $N(s,t)$ be the smallest integer $n>s$ such that there exists an “$(n;s;t;1)$-design” (i.e., a collection of $s$-subsets $e_1,\dots,e_m$ of $[n]:=\{1,\dots,n\}$, such that ...
Zach Hunter's user avatar
  • 3,499
8 votes
1 answer
384 views

Berge-Fulkerson conjecture --- the planar case

A well-known conjecture of Berge and Fulkerson says that every bridgeless cubic graph has a collection of six perfect matchings that together cover every edge exactly twice. Is this still open for ...
Xin Zhang's user avatar
  • 1,190
1 vote
0 answers
129 views

Hopcroft–Karp Algorithm for a dynamic graph

As so you all know, we have Hopcroft–Karp Algorithm for maximum matching between two sides in a bipartite graph. It runs in $O(\sqrt{V} \times E)$ where $V$ is the vertex set and $E$ is the edges set. ...
linuxbeginner's user avatar
5 votes
2 answers
579 views

Smallest $3$-regular graph with a unique perfect matching

What is the smallest 3-regular graph to have a unique perfect matching? With a large enough number of nodes, it is possible for a 3-regular graph to have no perfect matching (example can be seen in ...
PickupSticks's user avatar
7 votes
2 answers
500 views

Disjoint perfect matchings in complete bipartite graph

Let $K_{n,n}$ be a complete bipartite graph with two parts $\{u_1,u_2,\ldots,u_n\}$ and $\{v_1,v_2,\ldots,v_n\}$, and let $K^-_{n,n}$ be the graph derived from $K_{n,n}$ by delete a perfect matching $\...
Xin Zhang's user avatar
  • 1,190
0 votes
0 answers
110 views

Bound on the number of maximum matchings in a graph

It is known that the number of perfect matchings in a graph is bounded above by the integer part of the square root of the permanent of its adjacency matrix. But, suppose I take the square root of the ...
vidyarthi's user avatar
  • 2,089
7 votes
0 answers
203 views

Upper bound on the number of perfect matchings in $K_{3,3}$-free graphs

Let $G=(V,E)$ be a graph with an even number of vertices $|V|=2n$. Assume that $G$ is $K_{3,3}$-free i.e. it does not contain a graph isomorphic to biclique $K_{3,3}$. A perfect matching of $G$ is a ...
Michał Oszmaniec's user avatar
32 votes
0 answers
3k views

Vertex coloring inherited from perfect matchings (motivated by quantum physics)

Added (19.01.2021): Dustin Mixon wrote a blog post about the question where he reformulated and generalized the question. Added (25.12.2020): I made a youtube video to explain the question in detail. ...
Mario Krenn's user avatar
8 votes
0 answers
245 views

Sum of perfect matching construction

Suppose we have two bipartite graphs $G_1$ and $G_2$ with perfect matching count $P_1$ and $P_2$ respectively then their disjoint union gives a bipartite graph with perfect matching $P_1P_2$. Is ...
Turbo's user avatar
  • 13.9k
8 votes
2 answers
761 views

Maximum number of perfect matchings in a planar graph?

What is the maximum number of perfect matchings a planar $k$-partite $|V|$ number of vertices simple graph can have where $k=2,3,4$ ($k>4$ is impossible for a planar graph)? Since number of ...
Turbo's user avatar
  • 13.9k
3 votes
1 answer
376 views

Generalization of Marshall Hall's Theorem to non-simple bipartite graphs

Lemma 8.6.5 of the book "Matching Theory" by Lovász and Plummer states the following lemma: Lemma: Let $G$ be a simple bipartite graph with bipartition $(A,B)$, and assume that each point ...
Sanket Biswas's user avatar
7 votes
2 answers
480 views

Are all numbers from $1$ to $n!$ the number of perfect matchings of some bipartite graph?

Let $f(G)$ give the number of perfect matchings of a graph $G$. Consider set $\mathcal N_{2n}=\{0,1,2,\dots,n!-1,n!\}$. Consider collection of all $2n$ vertex balanced bipartite graph to be $\...
Turbo's user avatar
  • 13.9k
2 votes
0 answers
69 views

Why is Schröder numbers equivalent to the number of perfect matchings for triangular grid of n squares and how the graph look like? [duplicate]

In the OEIS entry for the Schröder numbers is A006318. There is a comment which related the sequence to perfect matchings: The number of perfect matchings in a triangular grid of n squares (n = 1, 4, ...
Xuemei's user avatar
  • 141
2 votes
0 answers
60 views

Sum of number of perfect matchings and a constant constuction

Suppose we have two bipartite graphs $G_1$ and $G_2$ with perfect matching count $P_1$ and $P_2$ respectively then their disjoint union gives a bipartite graph with perfect matching $P_1P_2$. Is ...
Turbo's user avatar
  • 13.9k
9 votes
1 answer
382 views

Why is the number of Perfect Matchings in a triangular grid equivalent to the number of Royal Paths?

The sequence A006318 at OEIS stands for the Schröder numbers. They describes the number of lattice paths from the southwest corner $(0,0)$ of an $n\times n$ grid to the northeast corner $(n,n)$, ...
Mario Krenn's user avatar
11 votes
1 answer
820 views

Graphs with only disjoint perfect matchings, with coloring

The following purely graph-theoretic question is motivated by quantum mechanics. Definitions: A bi-colored graph $G$ is an undirected graph where every edge is colored. An edge can either be ...
Mario Krenn's user avatar
11 votes
2 answers
1k views

Densest Graphs with Unique Perfect Matching

Given a graph $G$ with $n$ vertices, that has a perfect matching $M$, what is the maximal number of edges that $G$ can have without contradicting the uniqueness of $M$? Are examples of such extremal ...
Manfred Weis's user avatar
  • 13.2k
2 votes
1 answer
338 views

Number of distinct perfect matchings/near perfect matchings in an induced subgraph

Consider a Class 1 graph with degree $\Delta\ge3$ and the induced subgraph formed by deleting a set of independent vertices of cardinality $\left\lfloor\frac{n}{\Delta}\right\rfloor$. Then, what is ...
vidyarthi's user avatar
  • 2,089
9 votes
2 answers
454 views

How to characterize "matching-transitive" regular graphs?

I am interested in regular graphs $G$ such that for each pair of 1-factors (=perfect matchings) $F$ and $F'$ there is an automorphism of $G$ that takes $F$ to $F'$. Let's call this property matching ...
Wolfgang's user avatar
  • 13.4k
3 votes
1 answer
3k views

Number of perfect matchings in bipartite graph with given minimum degree

Let $G$ be a spanning subgraph of $K_{n,n}$ with minimum degree $\delta(G) \geq n/2$. It's easy to show using Hall's theorem that $G$ has a perfect matching, and the example of two disjoint copies of ...
Ben Barber's user avatar
  • 4,589
0 votes
1 answer
358 views

A vertex transitive graph has a near perfect/ matching missing an independent set of vertices

Consider a power of cycle graph $C_n^k\,\,,\frac{n}{2}>k\ge2$, represented as a Cayley graph with generating set $\{1,2,\ldots, k,n-k,\ldots,n-1\}$ on the Group $\mathbb{Z}_n$. Supposing I remove ...
vidyarthi's user avatar
  • 2,089
0 votes
1 answer
150 views

Combining three matchings to form a maximal matching

Consider a regular tripartite graph $G$ with maximum degree $\Delta\ge3$ and parts $A,B,C$. Now, the induced subgraphs $A\cup B, B\cup C$ and $A\cup C$ are all bipartite. Now, is there a way to ...
vidyarthi's user avatar
  • 2,089
7 votes
1 answer
969 views

Graph to Bipartite conversion preserving number of perfect matchings

Given a graph $G$ on $n$ vertices is there a technique to convert to a balanced bipartite graph $B$ with $O(n^c)$ vertices at some fixed $0<c$ in $O(n^{c'})$ time at some fixed $0<c'$ such that ...
Turbo's user avatar
  • 13.9k
-2 votes
2 answers
2k views

Does every 3-regular bridgeless graph have a perfect matching? [closed]

Let $G$ be a simple $3$-regular (every vertex has degree $3$) $2$-edge connected graph. Does $G$ contain a perfect matching?
Adam jack's user avatar
7 votes
1 answer
974 views

Algorithm to count the number of perfect matchings in non planar graph

I need to count the number of perfect matchings of a certain family of graphs. This family of graph is non planar and a type of snark. For the initial cases, it seems that this number is growing ...
Sandeep Silwal's user avatar
7 votes
0 answers
349 views

Missing count in number of perfect matchings

Let $f(G)$ give number of perfect matchings of a graph $G$. Denote $\mathcal N_{2n}=\{0,1,2,\dots,n!-1,n!\}$. Denote collection of all $2n$ vertex balanced bipartite graph to be $\mathcal G_{2n}$. ...
Turbo's user avatar
  • 13.9k
3 votes
1 answer
131 views

A graph $G$ with two $K_6$ subgraphs, in which any one-factor of $G$ induces a one-factor in exactly one of the $K_6$ subgraphs?

I'm seeking a simple graph $G$ of the following type: It contains two disjoint copies of $K_6$ (the complete graph on 6 nodes), $H$ and $H'$ say. Any one-factor of $G$ must contain either (a) a one ...
Douglas S. Stones's user avatar
0 votes
0 answers
54 views

Do all induced subgraphs of powers of cycles have a perfect matching

Do all independence induced subgraphs of powers of cycles have a distinct 1-factor? By independence induced, I mean those induced subgraphs which are formed by removing a maximal independent set of ...
vidyarthi's user avatar
  • 2,089
2 votes
2 answers
354 views

Matching with probabilistic edges

Let $p<1$ be a constant. Consider two sets $A,B$, each with $n$ vertices. For each pair $(a,b)\in A\times B$, the edge between $a$ and $b$ appears with probability $p$, independently of the ...
Alexi's user avatar
  • 239
6 votes
1 answer
230 views

A non-distinct system of representative edges

I have the following problem: Let $ \mathcal{G} = (G_{i})\_{i} $ be a collection of graphs on the same vertex set. I would like to find a "system of representative edges" $ f : \mathcal{G} \...
julkiewicz's user avatar
4 votes
1 answer
592 views

Probability bound for perfect matching

Let $p<1$ be a constant. Consider two sets $A,B$, each with $n$ vertices. For each pair $(a,b)\in A\times B$, the edge between $a$ and $b$ appears with probability $p$, independently of the ...
Alexi's user avatar
  • 239
-2 votes
1 answer
640 views

About structure of the set of perfect matchings of $K_{n,n}$

Are there any special properties known about the set of perfect matchings of $K_{n,n}$? Like any global structure of this set? Some natural way to partition it? Like is there some algebraic structure ...
user6818's user avatar
  • 1,893
3 votes
1 answer
145 views

"Hypo" and "Hyper" for Perfect Matching

There is a fairly rich classification on graphs with respect to the existence of Hamiltonian cycles either in unmodified graphs or after certain small modifications. Do there also exist such ...
Manfred Weis's user avatar
  • 13.2k
1 vote
2 answers
206 views

The cost function in the Weighted Bipartite Matching Problem (a.k.a the Assignment Problem)

In the definition of this problem, the weight/cost function generally takes value in $\mathbb{Z}$ (or sometimes $\mathbb{Q}$). This is what I observed from some books (e.g. "Combinatorial ...
f10w's user avatar
  • 163
2 votes
0 answers
64 views

Minimum size of genus $g$ bipartite graphs with $2^n$ perfect matchings

Given $n\in\Bbb Z_{\geq0}$ let $2T_{n,g}$ be size of smallest number of vertices of genus $g$ bipartite graph with $T_{n,g}$ vertices of each color such that number of perfect matchings is $2^n$. Eg: ...
Turbo's user avatar
  • 13.9k
0 votes
1 answer
773 views

Counting matchings in a bipartite matching-covered graph

A graph is called matching-covered if every edge is containd in a perfect matching. (Such graphs are also sometimes called "elementary", e.g. in Chapter 4 of "Matching Theory" by Lovasz & Plummer)....
Felix Goldberg's user avatar
1 vote
1 answer
190 views

Converse of Petersen's 2-Factorization Theorem

Definition: A $k$-factor of a graph is a spanning $k$-regular subgraph. Definition: A $k$-factorization of a graph is a partition of the edge set into $k$-factors. Petersen's celebrated ...
Felix Goldberg's user avatar
1 vote
0 answers
66 views

Largest number of perfect matchings in bounded genus graphs

What is the largest number of perfect matchings a genus $g$ bipartite graph on $n+m$ vertices have?
Turbo's user avatar
  • 13.9k
1 vote
1 answer
178 views

Planar eucliean bipartite matching with squared distances

This is probably a really stupid question, but suppose I have two sets of points in the plane $X$ and $Y$ each with cardinality $|X| = |Y| = n$. For any bipartite matching $M$ between $X$ and $Y$, ...
Mads Simonsen's user avatar
6 votes
0 answers
154 views

Complexity of finding three perfect matchings with no edge in common in a bridgeless cubic graph

According to a conjecture: Conjecture (Fan & Raspaud, 1994) Every bridgeless cubic graph contains three perfect matchings with no edge in common. Equivalent statement here Main question: ...
joro's user avatar
  • 25.4k